mlu Never use in an atmosphere of explosive gases. The construction of auto switches is not intended to prevent explosion. Never use in an atmosphere with an explosive gas since this may cause a serious explosion. 2. Do not use in an area where a magnetic field is generated. Auto switches can malfunction or magnets inside cylinders can become demagnetized.
E F G H1 H2 J K L M N Model LVH20 LVH30 LVH40 30 30 52 44 11 79 10 72.5 74 4 20 37 3.5 27 36 47 81.5 56 16.5 106 19 111 113 7.5 34 46 5.5 37.5 46 60 100 68 22.5 131 20.5 139 143 8 42 57 5.5 50 483 Series LVH Dimensions/Threaded Type N Body material: PPS Body material: Stainless steel N G A G A D L Non-locking type Locking type 60 K 4 x M (H1) (H2) Non-locking type Locking type C 60 A B E
Never use in an atmosphere of explosive gases. 6. Do not use in an environment where there is excessive impact shock. The structure of auto switches is not intended to prevent explosion. Never use in an atmosphere with an explosive gas since this may cause a serious explosion. 2. Do not use in an area where a magnetic field is generated.
With bellows/cushion J K Nil N Thread type Nil TN TF Nylon tarpaulin Heat resistant tarpaulin With double-side cushion Without cushion Bellows Rc NPT G Built-in Magnet Cylinder Model If a built-in magnet cylinder without an auto switch is required, there is no need to enter the symbol for the auto switch.
Light/surge voltage suppressor circuit is equipped for the valve type J, K and R.
An injury or failure can result. Do not operate the product outside of the specifications. Do not use for flammable or harmful fluids. Fire, malfunction, or damage to the product can result. Verify the specifications before use. Do not operate in an atmosphere containing flammable or explosive gases. Fire or an explosion can result. This product is not designed to be explosion proof.
As this product is a 2-wire type, TXD and RXD are written together as "SD" 4.3 Communication Circuit Exterior Controller's interior 5 [V] RS-485 Driver 47 [k] CN3 680[] SD+ SD680[] GND 47 [k] Note 1) There is no terminating resistor built into the controller communication circuit. 9 - 4.4 Wiring Examples A wiring example of one controller connected to an upper level device is shown below.
NN NN MM MM KK LL KK LL 2 x PA (Port for operating cylinder) J I J 2 x PA (Port for operating cylinder) F F F 76.5 91 110 H 73 88 106 J 40 46.5 55 K 46 58 68 M 13 15 19 N 16 15 19 O 18.5 19.5 21.5 F 93.5 107.5 130.5 H 73 88 106 I 76.5 91 110 J 40 46.5 55 K 46 58 68 M 30.9 32.4 41.5 N 16 15 19 Applicable cylinder ML2B25 ML2B32 ML2B40 Applicable cylinder ML2B25 ML2B32 ML2B40 KK 15 16 17.5
shaft length XA48 XA49 Change of short shaft length Y* Y* Y* XA49 XA50 Change of double shaft length Y* Y* XA50 XA51 Change of long shaft length K,T* J* K,T* J* K* XA51 XA52 Change of short shaft length K* K* K* K* K* K* K* K* XA52 XA53 Change of double shaft length K* K* K* K* K* K* XA53 XA55 Change of short shaft length J* J* J* J* J* J* XA55 XA57 Change of double shaft length
SI unit of the SDTC or SDTD specification to an input block or valve.
Refer to p.0-39 to 0-46 for Safety Instructions and actuator cautions and auto switch precautions. Pneumatic Circuit Caution Manual Lock Release Caution qLock release manual override on CNA series is only for emergencies. When air supply pressure drops in an emergency, lock release manual override is used to forcibly push back the release piston and release the lock for emergency.
S 3 0 7 0 L 2 Q K 7 1 5 . 8 4 9 4 9 6 8 / 1 S 1 0 9 0 L 2 Q K 2 1 2 . 5 1 2 1 5 . 3 2 5 . 3 4 7 4 5 . 8 1 6 0 3 6 1 / 5 4 / 1 S 2 0 9 0 L 2 Q K 4 1 5 . 9 4 1 5 7 4 8 / 3 S 3 0 9 0 L 2 Q K 7 1 5 . 1 5 3 5 4 7 4 / 1 S 2 0 1 1 L 2 Q K 7 1 9 . 7 1 7 1 5 . 5 2 6 5 9 5 1 2 7 9 6 8 / 3 8 / 3 S 3 0 1 1 L 2 Q K 8 5 1 6 6 7 2 / 1 S 4 0 1 1 L 2 Q K 2 2 5 . 4 6 5 . 5 6 7 4 1 R(PT) 4 / 1 S 2 0 3 1 L 2
19.2 k/45.45 k/ 93.75 k/187.5 k/500 k/ 1.5 M/3 M/6 M/12 Mbps 156 k/625 k/ 2.5 M/5 M/10 Mbps Communication speed 10 M/100 Mbps Specified file Note 2) GSD file EDS file EDS file 96/96 (3 stations, remote device station) Occupied area (Number of inputs/outputs) 128/128 64/64 64/64 Built in the unit (Switch setting) Terminal resistor Not applicable Not applicable 11 to 25 VDC (Supplied by DeviceNet
Fix it to the detecting position with a set screw by installing an auto switch mounting bracket in cylinder tie-rod and letting the bottom surface of an auto switch mounting bracket contact the cylinder tube firmly. (Use a hexagon wrench.) 2. Fit an auto switch into the auto switch mounting groove to set it roughly to the mounting position for an auto switch. 3.
It may vary substantially depending on an ambient environment.
Drain guide J (Port size 1/4 without valve) For model selection of an auto-drain, refer to the Selection Precautions on page 45.
Power consumption is decreased by approx. 1/3 by reducing the wattage required to hold the valve in an energized state. (Effective energizing time is over 40 ms at 24 VDC.) Refer to electrical power waveform as shown below. Built-in strainer in the pilot valve Unexpected troubles due to foreign matter can be prevented. Note) Be sure to mount an air filter on the inlet side.
11 100 20 25 98 28 57.5 89 26 17.5 depth 13.5 77 11 Rc3/8 112.5 100 M20 x 2.5 156 6.5 26 12 107 24 30 117 29 67.5 95 26 17.5 depth 13.5 94 11 Rc3/8 132.5 Rod end male threads (mm) H C D L K X Bore size (mm) 20 M8 x 1.25 15.5 10 23 8 18 32 M14 x 1.5 27 16 38.5 14 30 40 M14 x 1.5 27 16 38.5 14 30 M18 x 1.5 50 32 20 46 18 35 M18 x 1.5 63 32 20 46 18 35 M22 x 1.5 37 25 51 22 80 40 M26 x 1.5
J 2 x P (Rc, NPT, G) (Port size) 100 Auto switch Minimum lead wire bending radius 10 H thread effective depth C 4 x N through F Q I E M Z A + Stroke B + Stroke L W G M K J Standard [mm] Bore size Stroke range Without magnet for auto switch With magnet for auto switch C D E F G H I J K L M N P Q W Z A B A B 50 10 to 50 37 29 42.5 34.5 15 18 57 9 M10 x 1.5 74 6.5 16 8 46 5.5 1/8 13 63.5 15